Graduate
Professional Directory for PhD Graduate Admissions
Professional Directory for PhD Graduate Admissions of University of Science and Technology Beijing |
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Professional code, name and research direction |
Supervisor |
Recruited Student number |
The recruited student number of targeted employments |
Test subject |
Notes |
180Institute for Advanced Materials and Technology |
56 |
6 |
Recruitmentaccording to first-level subject |
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080500 Materials Science and Technology |
56 |
6 |
One student recruited at Shunde Graduate School; |
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01 Material genetic engineering theory and technology |
JianxinXie |
①1001 Foreign language proficiency assessment②2001 Professional level assessment③3001 Comprehensive quality assessment |
JianxinXieis an academician of the Chinese Academy of Engineering |
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02 Basic theory of controlled solidification and forming of metal |
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03 New technology and new process of metal short-flow processing |
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04 Intelligent material preparation and processing technology |
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05 Metal extrusion theory and technology |
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06 Advanced metal layered composite |
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07 New forming technology of high-temperature alloy |
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08 Special steel preparation and processing technology |
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09 Material failure mechanism and development of high-quality corrosion-resistant steel based on corrosion big data |
Xiaogang Li, |
As above |
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10 Thin liquid electrochemical theory and basic research on atmospheric corrosion protection |
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11 Research on phase electrochemical theory and material soil corrosion mechanism |
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12 Material marine corrosion and life assessment |
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13 Basic research on material corrosion genome engineering |
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14 Laws and mechanisms of environmental aging of polymer materials |
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15 Corrosion and protection of typical industrial environment |
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16 Advanced organic coating and surface technology |
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17 Microbiological corrosion and protection |
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18 Interaction mechanism of multi-element gas-solid particle corrosion |
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19 Oil and gas field erosion, corrosion, control and life assessment |
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20 Corrosion resistant metal materials and coating corrosion resistance mechanism |
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21 New energy materials and micro/nano electrochemistry |
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24 Stress corrosion |
LijieQiao, |
As above |
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25 Hydrogen embrittlement and hydrogen induced cracking |
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26 Material failure analysis and control technology |
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27 Cross-scale study of corrosion and fracture |
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28 Atomic force microscope study of corrosion |
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29 Multi-field coupling failure of ferroelectric ceramics |
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30 Research on nanomechanics of low-dimensional materials |
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31 Metal solidification and control |
Chunjing Wu |
As above |
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32 Copper-clad aluminum and carbon fiber core-filling continuous casting |
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33 Preparation of diamond copper thermal management material |
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34 Powder metallurgy of nonferrous metals |
Zhimeng Guo |
As above |
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35 Self-propagating high temperature synthesis |
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36 Dispersion strengthened materials |
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37 Coatings with high wear- and corrosion-resistance |
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38 Advanced powder metallurgy forming technology (metal injection molding, high velocity, 3D printing) |
Xuanhui Qu, |
As above |
Prof. Qu also recruits1 PhD student for joint training with Beijing Nonferrous Metals Research Institute |
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39 High-performance powder metallurgy structural materials (Fe-based and Al-based alloys, high temperature alloys, refractory metal and hard alloys) |
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40 High thermal conductivity electronic packaging materials, new energy materials |
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41 Powder material design and high-throughput preparation technology |
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42 Design of new biomedical metal materials |
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43 Development and application of lightweight high temperature structural materials |
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44 Corrosion,control and safety assessment of pipes and other materials |
Huimin Meng |
As above |
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45 Nano materials/green surface nano processing technology |
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46 Electrode materials/electrochemical engineering/new energy |
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47 Magnetic functional materials |
Shengen Zhang |
As above |
Prof. Zhang also recruits 1 PhD student for joint training with Central Iron and Steel Research Institute |
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48 Material recycling theory and technology |
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49 Harmless disposal and resource utilization of hazardous solid waste |
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50 Recycling technology of scrapped cars |
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51 Advanced ceramic and metal matrix composites |
Xinbo He |
As above |
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52 High performance electronic packaging materials |
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53 Powder metallurgy new materials and technologies |
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54 High performance marine engineering materials |
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55 Application research of diamond film composite electronic devices |
Chengming Li |
As above |
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56 Research on preparation technology of high-performance thin film materials |
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57 Research on preparation technology of single crystal diamond |
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58 Environment fracture (hydrogen embrittlement and stress corrosion) theory |
Yanjing Su |
As above |
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59 Design technology of hydrogen embrittlement resistant high strength steel |
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60 Materials genome engineering technology |
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61 Material database and data mining technology |
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62 Material database techniques |
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63 Machine learning algorithm and its application in materials research |
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64 Powder injection molding technology |
Mingli Qin |
As above |
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65 Research and application of aluminum nitride ceramics |
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66 High-performance powder metallurgy precision alloy |
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67 Precision forming and application of refractory metals |
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68 Surface engineering of light alloy material |
Jin Zhang |
As above |
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69 Metal strengthening, wear resistance and composite treatment |
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70 Characterization mechanism of residual stress and special properties of coating |
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71 Key materials and devices for new solid-state batteries |
Lizhen Fan |
As above |
One student recruited at Shunde Graduate School |
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72 Advanced energy materials and devices |
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73Nano materials and devices |
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74 Ceramic and its surface metallization |
Junjie Hao |
As above |
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75 Application of plasma technology in powder preparation and modification |
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76 Preparation and characterization of high-performance powder metallurgy materials |
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77 Superhard materials and tools |
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78 Nano-material synthesis technology |
Ping Li |
As above |
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79 New batteries and materials |
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80 Hydrogen production, hydrogen storage materials and applications |
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81 Multi-field coupling mechanism of ferroelectric materials and high-performance refrigeration devices |
Yang Bai |
As above |
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82 Electromagnetic and multiphysics metamaterials |
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83 Cross-scale design and high-throughput R&D of inorganic functional materials |
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84 New optoelectronic functional materials and devices |
Jianjun Tian, |
As above |
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85 Solar energy conversion materials |
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86 Semiconductor quantum dots |
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87 New energy materials and devices |
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88 New ferroelectric thin film and photoelectric thin film |
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89 Service performance of biological materials |
Yu Yan |
As above |
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90 Friction and wear |
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91 Delayed fracture mechanism of high strength steel |
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92 Research on preparation and service behavior of high-performancehigh entropy alloy |
Hong Luo |
As above |
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93 Research on the origin of corrosion at the micro-nano scale |
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94 Material service damage and control based on industrial data and machine learning |
Lei Zhang |
As above |
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95 Mechanism and protection technology of energy industry corrosion and environmental fracture |
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96 Molecular design and preparation of smart liquid crystal elastomers with multiple responses |
Huai Yang |
As above |
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97 Fabrication and optical properties of fully flexible composition material of liquid crystal and polymer |
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98 Preparation and properties of liquid crystal materials for 5G |
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